固体球体在粘弹性介质中响应外加声辐射力的运动:理论分析与实验验证
Motion of a solid sphere in a viscoelastic medium in response to applied acoustic radiation force: Theoretical analysis and experimental verification.
作者信息
Aglyamov Salavat R, Karpiouk Andrei B, Ilinskii Yurii A, Zabolotskaya Evgenia A, Emelianov Stanislav Y
机构信息
Department of Biomedical Engineering, University of Texas at Austin, Austin, Texas 78712-0238, USA.
出版信息
J Acoust Soc Am. 2007 Oct;122(4):1927-36. doi: 10.1121/1.2774754.
Abstract
The motion of a rigid sphere in a viscoelastic medium in response to an acoustic radiation force of short duration was investigated. Theoretical and numerical studies were carried out first. To verify the developed model, experiments were performed using rigid spheres of various diameters and densities embedded into tissue-like, gel-based phantoms of varying mechanical properties. A 1.5 MHz, single-element, focused transducer was used to apply the desired radiation force. Another single-element, focused transducer operating at 25 MHz was used to track the displacements of the sphere. The results of this study demonstrate good agreement between theoretical predictions and experimental measurements. The developed theoretical model accurately describes the displacement of the solid spheres in a viscoelastic medium in response to the acoustic radiation force.
摘要
研究了刚性球体在粘弹性介质中对短持续时间声辐射力的响应运动。首先进行了理论和数值研究。为了验证所建立的模型,使用嵌入具有不同力学性能的组织样凝胶基体模中的各种直径和密度的刚性球体进行了实验。使用一个1.5MHz的单元素聚焦换能器施加所需的辐射力。另一个工作在25MHz的单元素聚焦换能器用于跟踪球体的位移。本研究结果表明理论预测与实验测量结果吻合良好。所建立的理论模型准确地描述了固体球体在粘弹性介质中对声辐射力的响应位移。
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